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And what we find out is the wavelength of a Matsuzaka fastball is 1.1 times 10 to the -31 meters.
我们算出松阪快球的波长,是1,1乘以10的负31次方米。
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For example, if we're talking about a pitcher, like Matsuzaka, we might want to know the speed of his average fastball.
举例来说,如果我们谈到一个投手,就像松阪,我们想知道他投出,快球的平均速度。
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But those who are easier graders than average will never feel guilty and toughen up.
而那些评分本来就比平均标准松的,根本不会觉得内疚,不会因此更严格。
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They are a function of the instant atomic arrangement, how we arrange the atoms: same composition, simple example, one inch thick pine board, one inch thick plywood.
那是即时的原子排序,的功能,我们如何排序原子,同样的成分,简单的例子,一英寸厚的松木板,一英寸厚的胶合板。
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And of course then there's the extreme bagel that you see here.
当然,还有更极端的松饼,你们看
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The ribbon comes off.
丝带会松落的。
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So, if we're trying to figure out the wavelength of a Matsuzaka fastball, we need to consider the velocity first, which is 42 miles per hour.
如果我们尝试计算一个,松阪发出快球的波长,我们首先需要考虑速度,每小时为42英里。
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So, that's for Matsuzaka, and even if you don't memorize all the wavelengths for all the pitchers.
所以,那是对于松阪的情况,即使你没有记住,所有的投手投出球的波长。
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And the example we'll pick is considering, for example, a Matsuzaka fastball.
我们举例来考虑的是,一个松阪的快球。
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Well it's very hard to find muffins that size.
找到这样大小的松饼简直不可能
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So, first we have Matsuzaka at 94 miles per hour.
所以,首先我们知道松阪的,投球速度是94公里每小时。
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So we can think about what is our most loosely-bound electron, what's that highest energy orbital, and it's going to be the 2 p orbital, that's going to be what's highest in energy.
我们来想一想,它“束缚得最松“的电子是哪一个,能量最高的轨道是哪一个?,它就是,2,p,轨道,是能量最高的轨道。
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